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Monoclonal Antibodies. Duncan Hannant Animal Health Trust Newmarket Suffolk CB8 7UU. Monoclonal antibodies (MAbs). Polyclonal antibody responses (summary). Benefits and limitations of polyclonal antibody responses. Short review of antibody assay methods. Concepts and derivation of MAbs.
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Monoclonal Antibodies Duncan Hannant Animal Health Trust Newmarket Suffolk CB8 7UU
Monoclonal antibodies (MAbs) • Polyclonal antibody responses (summary). • Benefits and limitations of polyclonal antibody responses. • Short review of antibody assay methods. • Concepts and derivation of MAbs. • Assays for MAbs - sensitivity c.f. polyclonal antibodies. • Mabs in clinical/veterinary diagnosis/therapy. • Problems of rejection/immune stimulation by Mabs in vivo. • Concepts and derivation of MAbs from heterohybridomas. • Applications of heterohybridomas in veterinary species. • Future prospects for MAbs and heterohybridomas. • Summary, Acknowledgements, Resources and Literature.
Polyclonal antibodies: production • Immunise host animals with purified antigen (with adjuvant) - approx 2-4 weekly. • Test sera and select animals with high reactivity. • Re-boost and collect large volume of blood. • Prepare serum and isolate immunoglobulins. • Re-immunisation and bleeding are possible.
Polyclonal antibodies: limitations • Life span of host animal(s). • Considerable individual variation: (select a “favourite” - research progress dependent upon life and health of (say) one rabbit). • Desired antibody is only a minor component of serum (contains “natural”, cross-reactive and contaminating antibodies). • “Specific” antibodies are heterogeneous mixtures (varying concentrations/ affinities/activity). • Solution: affinity purification of Igs with purified antigen. • Result: limited supply of required antibody.
Some properties of serum polyclonal antibodies • Total serum volume from rabbit ~ 250ml • Protein concentration ~ 70 mg/ml • All immunoglobulins ~ 15 mg/ml • Specific antibody ~ 100 μg/ml • Max available specific antibody ~ 25mg
Some commonly-used assays for antibody • ELISA (enzyme-linked immunosorbent assay) • RIA (radioimmunoassay) • Gel Precipitation (radial, semi-quatitative) • Fluorescence-based (microscopic, cells and tissue sections) • Flow cytometry (e.g. FACS analysis, quantification of specific cells) • Haemagglutination (e.g. influenza) • Complement fixation (e.g. herpesviruses) • Virus neutralisation
How can we make large amounts of antigen-specific antibody? • Serum contains Ab produced by millions of B cells, only 1% of total Ab is “specific”. • Isolate individual B cells? • Select and culture/expand individual B cells? • Clone individual B cells? Requirement: Immortalised B cells continuously secreting their specific Ab
Monoclonal antibodies: concepts • Spontaneous somatic cell hybridisation sometimes observed in vitro (1960’s) • Some viruses shown to increase hybridisation frequency (e.g. Sendai) • Fusions of human and mouse tumour cells (1960’s) • Hybrid cell lines shown to express genes from both parental cells (1963) • Selections of parental cells for drug resistance allowed only hybrids to survive (1964) • First Mabs: Kohler & Milstein (1975) Nature 256, 495-497.
Monoclonal antibodies: concepts/methods Hybridoma selection based on drug resistance • Identify immortalised mouse myeloma cell line (e.g. NS1 myeloma derived from BALB/c mice) • Mutate to make deficient in enzymes necessary for DNA synthesis (HGPRT and TK) HGPRT = hypoxanthine-guanine phosphoribosyltransferase TK = thymidine kinase
Biosynthetic mutations in mutant myeloma cells EnzymePresentAbsentResult HGPRT Can’t use hypoxanthine TK Can’t use thymidine Rescue path Can use Uridine BUT: Culture medium contains HAT which blocks the Rescue Pathway H = hypoxanthine A = aminopterin T = thymidine
Monoclonal antibodies: concepts/methods Hybridoma selection based on drug resistance • Mutated myeloma cells will not grow in presence of aminopterin. • Fuse myeloma cells to normal B cells from immunised mouse (PEG used routinely now) • Unfused myeloma cells die (aminopterin) • Unfused normal B cells die after 1-2 weeks anyway • Only hybridomas survive (they can use hypoxanthine and thymidine).
Critical steps Antigen need not be pure 2-4 weeks TLC “Feeder” cells required Must have a specific screening method! 1°screen of supts for Mab activity Re-screen often e.g.Ascites
Advantages of monoclonal antibodies • Standard/routine procedure now • Impure antigens may be used - needs specific selection and screening strategy • Can select Mabs with specific biological effects or reactivity for specific structures • Unlimited supply of homogeneously reactive antibodies
Application of monoclonal antibodies • Purification of molecules/viruses etc: • Couple Mab to solid surface and use to affinity purify the molecule of interest (several-fold in one step, Coligan et al 1997, Current Protocols in Immunology, J Wiley & Sons) • Sensitive detection assays: • Used to detect autoantigens, viruses, bacteria, body fluid components • Detection of cell surface markers: • CD markers, HLA molecules, cytokines and receptors (Winkelstein & Donnenberg 1997, Clinical application of flow cytometry, CRC Press)
Application of monoclonal antibodies • Applied chemistry: • Make Mabs against enzyme inhibitors - potential to serve as enzyme and show catalytic function (Schultz & Lerner 1995, Science 269, 1835-1842) • Gene identification: • Make Mabs against portion of predicted protein encoded by a gene and use to look for gene expression and function
Application of monoclonal antibodies • Disease therapy: • Mabs against cytokines and activated cell surface markers used to treat autoimmunity and transplant rejection (Moller 1996, Immunol. Rev. 129, 1-201) • Anti-TNF Mabs used to treat RA (infliximab, Vitella et al 1993, Immunol. Today 14, 252-259).Couple Mabs to toxins/drugs for cancer therapy (magic bullets) • “Humanised” Mabs (replace mouse Ig structures with human counterparts) NB: “Antibodies as therapeutic entities” and “Engineering antibodies for therapy” to be delivered as part of this module Spring 2004.
inhibits proliferation TH1 TH2 inhibits production IL10 IFN IL4, IL5, IL6, TGF- Macrophage activation Mast cell B cell Eosinophil Y Y Antibody Y
Disease Therapy with MAbs Monoclonal Antibody Treatment for Systemic Lupus Erythematosus This study is currently recruiting patients. Sponsored by: National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS) This study will examine the safety and effects of the monoclonal antibody MRA in patients with systemic lupus erythematosus (SLE). Antibodies normally fight invading organisms. In autoimmune diseases, such as lupus, however, antibodies attack the body's own tissues. MRA is an antibody manufactured in the laboratory that blocks the action of interleukin-6 (IL-6), a substance that increases antibody production and is involved in inflammation that may cause organ damage in SLE.
Disease Therapy with MAbs Monoclonal Antibody Therapy in Non-Hodgkin's Lymphoma: Brian K. Link, MD, American Society of Hematology 42nd Annual Meeting, December 2000, San Francisco. One hypothesis as to how these antibodies work, in simplistic terms, is that the antibody attaches to the antigen and then through its FC portion interacts with NK cells or the cellular effector mechanisms of the immune system. An alternative view is that when the antibody attaches to the antigen, it induces the complement cascade and ultimate cell death through that mechanism. Rituximab is an antibody to take advantage of the technology to make chimeric or humanized antibodies. It is chimeric with the variable region being murine and the backbone human IgG1. It targets CD20, which is expressed on all B-cells, but not T-cells, or NK cells, and is involved in regulating the cell cycle. Another antibody is Campath-1H, which targets CD52 expressed on B-cells and T-cells and monocytes, and is ubiquitous throughout the human population. When the humanized version of Campath was given to patients with a variety of lymphoid malignancies, it was found to be very effective at depleting circulating tumor cells in the blood and bone marrow.
In vitro methods for MAb production • Cloned hybridomas were usually propagated as ascites in peritoneal cavity of BALB/c mice (pain and distress). • Ethical Review Process and Home Office regulations require attention to 3Rs. • Ascites banned in UK now, unless specifically approved by HO. • In vitro systems can generate about 100ml Mab at ~1mg/ml (see supplied list)
In vitro methods for MAb production i-Mab gas-permeable bag
In vitro methods for MAb production CELLine CL 6 Culture System
In vitro methods for MAb production Metabolites Nutrients Oxygen Nutrient Membrane Gas Membrane CELLine culture system
In vitro methods for MAb production CELLine culture system
In vitro methods for MAb production Tecnomouse culture system
Developments in species-specific monoclonal antibodies • Very few human myeloma cell lines • Even less myeloma cell lines in other species • Inter-species fusions are possible but give low hybridisation frequency and unstable hybrids Possible Solution: Use heterohybridoma cell lines as fusion partners
Respiratory Diseases Seminar Room Newmarket
Species-specific Mabs: basic method e.g. Consider the horse • Fuse mouse myeloma cells to normal horse lymphocytes. • Select and clone immortal (non-antibody secreting) hybrids. • Use as fusion partners for B cells from horse immunised against influenza virus. • Resultant Mabs are “horse”, not mouse.
Species-specific Mabs: basic method e.g. Consider the horse Antibodies produced from: (Horse x Mouse) x Horse Heterohybridomas
Scheme for making horse/mouse heterohybridomas (immunised horses)
Acknowledgements Wellcome Trust Betty Tucker Home of Rest for Horses Claire Richards Horserace Betting Levy Board Julia Kydd European Union Zoe Swann Centaur Inc Ken Smith Animal Health Trust BBSRC Babraham
Literature/resources supplied • Key references listed in slides • Commercially available in vitro culture systems for Mabs • Homepage and Equine Leucocyte Antigen Workshops: www.vetmed.wisc.edu/research/eirh • Equine Immunology Mailbase Server: equine-immunology@mailbase.ac.uk • Lunn, Hannant and Horohov (1998) “Immunology of Horses and Donkeys”. In Handbook of Vertebrate Immunology (Eds: Pastoret et al), Academic Press, pp343-372.
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